Long-term performance of permeable reactive barriers used for the remediation of contaminated groundwater

Objectif

Problems to be solved
Contaminated land, landfills and sediments pose a serious environmental threat by polluting groundwater in the surrounding area. In 14 European countries contamination caused by uranium represents a particularly serious danger where drinking water resources might be affected. Other heavy metals and organic pollutants can also have a strongly deleterious effect on groundwater. Available technologies (e.g. pump-and-treat) fall short of solving the problem because their performance is not yet adequate for effective remediation. Permeable reactive barriers (PRB) represent a promising innovative technology for passive in-site groundwater remediation. Little is known, however, about the long-term behaviour (formation of coatings and precipitates, reduction of permeability) of PRB systems.
Scientific objectives and approach
The aim of the project is to elaborate the scientific basis for, laboratory and pilot-scale testing of and the practical application of a considerably more efficient and cost-effective in-site reactive barrier technology targeting groundwater contaminants. General objective is to evaluate and enhance the long-term performance of PRB systems, especially of those targeting heavy metals and organic contaminants using sorption and/or precipitation mechanisms. The approaches taken to meet the project objectives will be the characterisation of different reactive materials and relevant attenuation processes in the reactive matrix of the PRB and their long-term behaviour. Technological methods to enhance the long-term efficacy and cost-effectiveness of the PRB system will be developed and tested under realistic conditions. The primary model test site will be an area in southern Hungary contaminated by uranium mining - thus including a region which is due to become part of the European Union.
Expected impacts
The results of this project are expected to play a major role in establishing the permeable reactive barrier technology as an accepted, reliable and cost-effective method for the remediation of contaminated groundwater. The broad spectrum of activities within the proposal offers considerable utilisation opportunities. The investigation of potentially suitable reactive materials for specific target contaminants and the clarification of attenuation processes and ageing mechanisms will enable the optimisation of reaction conditions and barrier design. New technological developments like specially tailored contaminant-targeting ligands and electro kinetic enhancement are aimed at improving the effectiveness of the groundwater-cleaning task of PRB systems. The anticipated spread in the application of PRB systems will also necessitate regulation. As far as we are aware, the Federal Institute for Materials Research and Testing (BAM) in Berlin is currently the only regulatory body in Europe in a position to develop guidelines and regulations on reactive barriers. The project will develop a schematic, long-term effectiveness assessment method for lifetime prediction. The results of the project will therefore also influence the future sanctioning practice of such remediation systems by the responsible authorities.

Contaminated land, landfills and sediments pose a serious environmental threat by polluting groundwater in the surrounding area. In 14 European countries contamination caused by uranium represents a particularly serious danger where drinking water resources might be affected. Other heavy metals and organic pollutants can also have a strongly deleterious effect on groundwater. Available technologies (e.g. pump-and-treat) fall short of solving the problem because their performance is not yet adequate for effective remediation. Permeable reactive barriers (PRB) represent a promising innovative technology for passive in-situ groundwater remediation. Little is known, however, about the long-term behaviour (formation of coatings and precipitates, reduction of permeability) of PRB systems.

Champ scientifique (EuroSciVoc)

CORDIS classe les projets avec EuroSciVoc, une taxonomie multilingue des domaines scientifiques, grâce à un processus semi-automatique basé sur des techniques TLN. Voir: Le vocabulaire scientifique européen.

• ingénierie et technologie génie de l'environnement procédés de traitement des eaux procédés de traitement de l’eau potable
• sciences naturelles sciences de la Terre et sciences connexes de l'environnement hydrologie
• ingénierie et technologie ingénierie des materiaux revêtement et films
• ingénierie et technologie génie de l'environnement gestion des déchets procédés de traitement des déchets

Programme(s)

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• FP5-EESD - Programme for research, technological development and demonstration on "Energy, environment and sustainable development, 1998-2002"

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• 1.1.4.-1. - Key action Sustainable Management and Quality of Water

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CSC - Cost-sharing contracts

Coordinateur

Participants (7)